JP5576909B2 - Injection molding machine that communicates using a network - Google Patents

Description

  The present invention relates to an injection molding machine that communicates using a network.

When operating an injection molding machine in a network environment, it is necessary to set network communication parameters such as an IP address in the injection molding machine before starting the operation. Network communication parameters are set for each injection molding machine.
Using a network connecting a plurality of injection molding machines to the management terminal, the quality control and production management of the injection molding machine is generally performed on a management terminal. In addition, the mold temperature controller and the molded product take-out machine, which are peripheral devices of the injection molding machine, are similarly connected to the injection molding machine using the network, and these peripheral devices are set from the injection molding machine. A technique for improving operability is also known in which setting values are changed or, conversely, data on the operating state of peripheral devices is acquired and displayed on a screen of an injection molding machine.
As described above, in a factory where a plurality of injection molding machines are installed to manufacture molded products, a network system is established between various devices, and data such as device settings and operating status are exchanged via communication. , Which helps smooth management of the factory.

In order to establish a network system by connecting multiple injection molding machines in a molding factory via communication, communication is performed along with wiring work for connecting devices such as management terminals, injection molding machines, and peripheral devices via a network. Work to set network communication parameters for each device is required. For example, as described in [0027] of Patent Document 1 and FIG. 6, the operator sets the network communication parameters on the input screen of the display device of the injection molding machine. I was typing.

JP 2009-119616 A JP 2004-282119 A

The task of setting network communication parameters is a task that takes more time as the number of devices connected to the network increases. In addition, among the network communication parameters, settings such as IP addresses are duplicated between devices . There also arises a problem that communication does not operate normally. In particular, in a large-scale injection molding factory, it is necessary to manage a large number of injection molding machines with a management terminal, and network communication parameter setting work is a very burdensome work for the operator. Further, in addition to the network communication parameters of the injection molding machine itself, there are cases where network communication parameters such as a management terminal used in the network system must be set in the injection molding machine. Although how to set the network communication parameters of the injection molding machine itself by a simple operation is disclosed in Patent Document 2, to the method for setting the network communication parameters, such as the management terminal used in the network system easily can Not disclosed.
Therefore, in the present invention, it is an object to reduce the burden of troublesome network communication parameter setting work by setting various network communication parameters in the injection molding machine using a personal computer, a storage medium, or an optical reader. To do.

The invention according to claim 1 of the present application relates to an injection molding machine that communicates using a network, a network communication parameter acquisition unit that acquires network communication parameters, and a setting that sets the acquired network communication parameters in the injection molding machine and parts, was perforated, the network communication parameters, the network comprising a network communication parameters to be used for the network application on an injection molding machine which performs communications between the management terminal and the injection molding machine It is an injection molding machine that uses and communicates. According to the present invention, network communication parameters used in the network application on the injection molding machine that realizes communication between the injection molding machine and the management terminal can be automatically set, reducing the burden on the operator and setting. Can be eliminated.

The invention according to claim 2 is an injection molding machine that communicates using a network. A network communication parameter acquisition unit that acquires network communication parameters; a setting unit that sets the acquired network communication parameters in the injection molding machine; The network communication parameter includes a network communication parameter used in a network application on the injection molding machine that realizes communication between the injection molding machine and a peripheral device. It is an injection molding machine that communicates.

In the invention according to claim 3, the injection molding machine is connected to a personal computer storing the network communication parameters via a network, and the network communication parameter acquisition unit acquires the network communication parameters from the personal computer via the network. An injection molding machine that communicates using the network according to claim 1 or 2. According to the present invention, it is possible to automatically set network communication parameters in the injection molding machine itself online.

According to a fourth aspect of the present invention, the injection molding machine includes a data input / output unit that performs data input / output with a storage medium, and the network communication parameter acquisition unit is configured to transmit the network communication parameter from the storage medium storing the network communication parameter. It is an injection molding machine which communicates using the network of Claim 1 or 2 characterized by the above-mentioned.
In the invention which concerns on Claim 4, the network communication parameter of each injection molding machine is memorize | stored in a storage medium, and this is read with an injection molding machine. Examples of the storage medium include USB memory / memory card / CD / DVD / floppy disk. Even if the injection molding machine is not connected to the network, network communication parameters can be automatically set in the injection molding machine itself. Therefore, it can also be used when it is desired to set network communication parameters in the injection molding machine before network wiring work.

In the invention according to claim 5, the injection molding machine has a data input unit from an optical reader, and the network communication parameter acquisition unit reads information including network communication parameters that can be read by the optical reader. 3. An injection molding machine that communicates using a network according to claim 1, wherein network communication parameters are acquired. There exists an effect similar to the invention which concerns on Claim 4.

In the invention according to claim 6, unique information unique to the molding machine is set in advance in the injection molding machine, and the network communication parameter acquisition unit acquires network communication parameters corresponding to the unique information of the injection molding machine. An injection molding machine that communicates using the network according to any one of claims 1 to 5. In the invention according to claim 6, since the network communication parameter is acquired based on the unique information, an error in acquiring the network communication parameter does not occur.

  According to the present invention, in the network system of an injection molding machine, it is possible to reduce the burden of troublesome network communication parameter setting work and eliminate setting errors such as duplication of IP addresses.

It is an example of a network configuration. It is a structural example of the network communication parameter of an injection molding machine. It is a figure explaining the file preservation | save example of the network communication parameter of an injection molding machine. It is a figure explaining the concept which an injection molding machine requests | requires a network communication parameter with respect to a personal computer, and a personal computer responds. It is a flowchart which shows the procedure of an injection molding machine and a personal computer when an injection molding machine requests | requires a network communication parameter with respect to a personal computer. It is a flowchart which shows the setting procedure of the network communication parameter using the storage medium in an injection molding machine.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIGS. 1 to 5 are diagrams for explaining an example in which a network is configured by a personal computer that stores network communication parameters of an injection molding machine or network communication parameters used in a network application on the injection molding machine. FIG. 6 is a diagram illustrating an example in which network communication parameters are set using a storage medium.

  FIG. 1 is a configuration example of a network. M and N injection molding machines and two personal computers are connected via a LAN. A personal computer connected to the injection molding machine includes a storage device for storing various data, a calculation processing unit (CPU) for executing various calculation processes, and a communication control unit for communicating with the injection molding machine via a LAN or the like. ing. The M injection molding machines are group 1 and the N injection molding machines are group 2. The h-th injection molding machine of group 1 is referred to as “injection molding machine 1_h”. Similarly, the h-th injection molding machine in group 2 is referred to as “injection molding machine 2_h”. The kth peripheral device used in the hth injection molding machine of group 1 is referred to as “peripheral device 1_h_k”. Similarly, the kth peripheral device used in the hth injection molding machine of group 2 is referred to as “peripheral device 2_h_k”. The personal computer 1 is a personal computer that stores network communication parameters of the group 1 injection molding machines and peripheral devices. Similarly, personal computer 2 is used for group 2. Furthermore, the number of peripheral devices used in the h-th injection molding machine in group 1 is “U1h”, and in group 2 is “U2h”. In FIG. 1, a management terminal (not shown) for overall management of each injection molding machine in which network communication parameters are set by the personal computer 1 and the personal computer 2 is connected.

Each injection molding machine is provided with a control device (not shown) , and controls each injection molding machine as a whole. The control device of the injection molding machine is conventionally known, and exchanges information with a personal computer and peripheral devices via a network such as a storage device, a calculation processing unit (not shown) including a CPU, and a LAN. A communication control unit (not shown) is provided. Peripheral devices of the injection molding machine are a temperature control device for controlling the temperature of the mold, a take-out device for taking out a molded product in the mold, and the like.

  FIG. 2 is a configuration example of network communication parameters of the injection molding machine according to the present invention. An injection molding machine can be specified by a group ID and a machine ID, and these IDs (group ID, machine ID) become unique information of the injection molding machine. In FIG. 2, “1” and “2” of the personal computer correspond to group ID 1 and group ID 2. The machine IDs are (1_1), (1_2),..., (1_M) in group 1, and (2_1), (2_2),..., (2_N) in group 2. As unique information of other injection molding machines, a machine number, a machine name, or the like can be used.

The network communication parameter corresponding to the j-th of the i-th injection molding machine in the group 1 of the personal computer 1 is assumed to be “P (1, i, j)”. The number of network communication parameters for each injection molding machine is R. Further, 0 <i ≦ M and 0 <j ≦ R. In the group of the personal computer 2 2 Similarly, "P (2, i, j )" shall be the. Also, it is 0 <i ≦ N, 0 < j ≦ R.

  The network communication parameters in the configuration example shown in FIG. 2 include one or more of the network communication parameters of the injection molding machine, the network communication parameters used in the network application on the injection molding machine, and the network communication parameters. Shall.

FIG. 3 is a diagram for explaining a file storage example of network communication parameters of the injection molding machine according to the present invention. When network communication parameters are configured as shown in the table of FIG. 2, the number of network communication parameters for each injection molding machine is stored in the first row. The group ID is stored in the second line. The third line stores the number of machines. In the 4th to M + 3th lines, network communication parameters for each injection molding machine are stored.

(Example of network communication parameter setting procedure)
Next, an example of a specific network communication parameter setting procedure in the present invention will be described. Here, an example in which the network communication parameter acquisition unit provided in the injection molding machine acquires from a personal computer via the network will be described.
FIG. 4 is a diagram for explaining a concept in which the injection molding machine requests network communication parameters from a personal computer and the personal computer responds.

First, the administrator of the molding plant where the injection molding machine is used has the machine-specific information and the network communication parameters of the injection molding machine corresponding to each injection molding machine connected to the PC via the network. The data is input using an input unit such as a built-in keyboard or touch panel and stored in a storage device of a personal computer (see FIG. 3). In order to confirm the setting contents, the personal computer can display the stored setting contents on a display screen of a display device provided in the personal computer . In the configuration example network communication parameters of the injection molding machine is shown in Figure 2, the personal computer 1 network communication parameters of the injection molding machine to be connected to the personal computer 1 is stored, injection molding machine to the personal computer 2 connected to the personal computer 2 Network communication parameters are stored.

  Also, when each injection molding machine connected to the network performs network communication with the management terminal, or when it is connected not only to the management terminal but also to peripheral devices (mold temperature controller, take-out machine, etc.) Needs to set the network communication parameters used in the network application on the injection molding machine in the injection molding machine. In such a case, the network communication parameters used in the network application on the injection molding machine corresponding to the unique information of each injection molding machine are stored on the personal computer, and the network communication parameters of the injection molding machine are stored. By applying the same procedure as that to be acquired, network communication parameters used in the network application on the injection molding machine may be set in the injection molding machine.

There are TCP / IP communication, UDP / IP communication, and the like as a network communication method when the injection molding machine performs network communication with a management terminal and peripheral devices. In order for the injection molding machine to identify the management terminal and peripheral device during network communication, for example, in TCP / IP communication, the IP address of the management terminal or peripheral device is essential as a network communication parameter. Some terminal names other than the IP address of the management terminal or peripheral device may be used.

For example, a UDP / IP broadcast packet is used as a communication protocol (communication means) when an injection molding machine requests network communication parameters from a personal computer connected via a network. The injection molding machine transmits a UDP / IP broadcast packet including unique information of the injection molding machine (see FIG. 4A). In the case of a UDP / IP broadcast packet, the injection molding machine can transmit even if network communication parameters are not set in the injection molding machine. On the other hand, the personal computer connected to the injection molding machine returns a UDP / IP broadcast packet including the network communication parameters of the requesting injection molding machine (see FIG. 4B).

  An outline of procedure 1 and procedure 2 for setting network communication parameters will be described. In (Procedure 1), one of the plurality of injection molding machines transmits a UDP / IP broadcast packet including unique information of the injection molding machine to the personal computer 1, the personal computer 2, and each injection molding machine. In (Procedure 2), the personal computer 1 receives a UDP / IP broadcast packet including network communication parameters, and returns a response to the injection molding machine.

Next, a specific communication unit between the injection molding machine and the personal computer will be described. First, the communication procedure of the injection molding machine will be described (see FIG. 4A).
1-1) A UDP / IP broadcast packet including unique information of the injection molding machine is transmitted.
1-2) Wait for a response from the personal computer 1 or 2.
1-3) When a UDP / IP broadcast packet including its own network communication parameters from the personal computer 1 or 2 is received, the acquired network communication parameters are set.

Next, a communication procedure of a personal computer connected to the injection molding machine will be described (see FIG. 4B).
2-1) Receive a UDP / IP broadcast packet transmitted by the injection molding machine. This packet includes information specific to the injection molding machine.
2-2) Confirm the unique information of the injection molding machine included in the received packet.
2-3) The unique information and network communication parameters of the requesting injection molding machine are set in a UDP / IP broadcast packet and then transmitted.

The above is the procedure when the network communication parameter is requested from the injection molding machine, but conversely the communication procedure when requesting the network communication parameter setting from the personal computer to the injection molding machine is as follows.
The communication procedure of the injection molding machine is as follows.
3-1) Each injection molding machine receives the UDP / IP broadcast packet transmitted from the personal computer. This packet includes information specific to the injection molding machine and network communication parameters.
3-2) Check the unique information and network communication parameters of the injection molding machine included in the received packet.
3-3) Set the acquired network communication parameters.

The communication procedure of the personal computer is as follows.
4-1) A UDP / IP broadcast packet in which unique information and network communication parameters of a setting destination injection molding machine are set is transmitted.

  FIG. 5 is a flowchart showing the procedure of the injection molding machine and the personal computer when the injection molding machine shown in FIG. 4 requests network communication parameters from the personal computer. Before entering this setting procedure, the group ID and machine ID of the injection molding machine are set by an operator operation on the injection molding machine (see FIG. 2 for the group ID and machine ID). Further, files for setting network communication parameters of the injection molding machine shown in FIG. 3 are stored in advance in the personal computers (the personal computers 1 and 2).

Hereinafter, it demonstrates according to each step.
First, the procedure of the injection molding machine will be described.
[Step SA01] The injection molding machine requests network communication parameters from the personal computer.
[Step SA02] The injection molding machine receives the network communication parameters (see Step SB03) transmitted by the personal computer.
[Step SA03] The received network communication parameters are set in the injection molding machine, and the process ends.

Next, the procedure of the personal computer will be described.
[Step SB01] The personal computer receives the network communication parameter request (see Step SA01) transmitted from the injection molding machine.
[Step SB02] The network communication parameters of the requesting injection molding machine are read from the storage device of the personal computer.
[Step SB03] The network communication parameters are transmitted to the injection molding machine, and the process ends.

  FIG. 6 is a flowchart showing a procedure for setting network communication parameters using a storage medium in the injection molding machine. Prior to entering this setting procedure, it is assumed that the file shown in FIG. 3 is saved in a storage medium by a personal computer by an operator operation and the storage medium storing the network communication parameters is mounted on the injection molding machine. Similarly, it is assumed that the group ID and machine ID of the injection molding machine are set in the injection molding machine by an operator operation. The network communication parameters handled in the setting procedure of FIG. 6 use the network communication parameters shown in FIG.

The procedure of the injection molding machine will be described below according to each step.
[Step SC01] The injection molding machine acquires network communication parameters from the storage medium connected to the injection molding machine.
[Step SC02] The acquired network communication parameters are set in the injection molding machine, and the process ends.

  The network communication parameter set in the injection molding machine described with reference to FIGS. 5 and 6 is one of the network communication parameter of the injection molding machine, the network communication parameter used in the network application on the injection molding machine, and the network communication parameter described above. One or more.

Each embodiment will be described below.
<Embodiment 1>
Embodiment 1 is an injection molding machine having a network communication parameter acquisition unit that acquires network communication parameters and a setting unit that sets the acquired network communication parameters in the injection molding machine.
Network communication parameters can be automatically set in the injection molding machine itself, reducing the burden on the operator and eliminating setting errors.

<Embodiment 2>
The network communication parameter acquisition unit according to the first embodiment acquires network communication parameters from a personal computer via a network. The personal computer is connected to a network and stores network communication parameters of an injection molding machine connected to the network. The network communication parameter acquisition unit reads the network communication parameters stored in the personal computer with an injection molding machine.
The acquisition unit may be one in which the injection molding machine requests transmission of network communication parameters from the personal computer, and acquires network communication parameters as a response. The injection molding machine is notified of the network communication parameters from the personal computer. The network communication parameter may be acquired as soon as it is notified. A personal computer that stores network communication parameters can be a portable terminal or a workstation .

<Embodiment 3>
The network communication parameter acquisition unit according to the first embodiment acquires network communication parameters using a storage medium. The network communication parameter acquisition unit stores the network communication parameters of each injection molding machine in a storage medium and reads them with the injection molding machine. Examples of the storage medium include USB memory / memory card / CD / DVD / floppy disk / hard disk.
Even if the injection molding machine is not connected to the network, network communication parameters can be automatically set in the injection molding machine itself. Therefore, it can also be used when it is desired to set network communication parameters in the injection molding machine before network wiring work.

<Embodiment 4>
The network communication parameter acquisition unit of the first embodiment is a method of acquiring using an optical reader. In this method, the network communication parameter of the injection molding machine is converted into a picture that can be read by the optical reading device, and then the picture is printed on paper or displayed on a terminal, and this is read by the injection molding machine. . Examples of the optical reader include a bar code reader / QR code (registered trademark) reader. Further, as a picture read by the optical reading device, an optical reading code such as a barcode / QR code (registered trademark) can be used. The same effect as in the third embodiment can be obtained.

<Embodiment 5>
About the network communication parameter acquisition part of Embodiment 2-4, it is an injection molding machine which has the reading part which reads the network communication parameter which set the information specific to an injection molding machine to the injection molding machine, and was made to respond | correspond to specific information. In this embodiment, network communication parameter acquisition errors do not occur.

<Embodiment 6>
The network communication parameters of Embodiments 1 to 5 are network communication parameters of the injection molding machine itself. When the operation of the injection molding machine is started in a network environment, it is necessary to set network communication parameters such as the IP address / subnet mask / default gateway of the injection molding machine in the injection molding machine before the operation. The same effects as those of the first embodiment can be obtained with respect to setting of network communication parameters of the injection molding machine itself.

<Embodiment 7>
The network communication parameters of the first to fifth embodiments are network communication parameters used in a network application on the injection molding machine that realizes communication between the injection molding machine and the management terminal. The network application is software equivalent to the session layer (fifth layer) or higher of the OSI reference model, and is widely spread in the market such as FTP and TELNET, or originally created by an injection molding machine manufacturer or the like.

  For example, when the injection molding machine acquires data of the management terminal using FTP, it is necessary to set the IP address of the management terminal and the login name and password used for FTP in the injection molding machine. In this case, the above IP address, login name, and password are network communication parameters used in the network application.

  As another example, when a request is made from the injection molding machine to the management terminal using a network application created uniquely by an injection molding machine manufacturer, the IP address or terminal name of the management terminal for identifying the management terminal In addition, it is necessary to set a network port number for specifying a network application on the management terminal in the injection molding machine. In this case, the above IP address, terminal name, and port number are network communication parameters used in the network application.

The management terminal serves as a communication partner of the injection molding machine and collects molding data of the injection molding machine and aggregates the production quantity. Usually, a personal computer is used as the management terminal, but a mobile terminal or a workstation can also be used as the management terminal. Further, the management terminal and the personal computer of the second embodiment storing the network communication parameters may be separate devices or the same device .
The setting of network communication parameters used in the network application on the injection molding machine that realizes communication between the injection molding machine and the management terminal has the same effect as in the first embodiment.

<Eighth embodiment>
The network communication parameters up to the fifth embodiment are network communication parameters used in a network application on the injection molding machine that realizes communication between the injection molding machine and peripheral devices. The difference from the seventh embodiment is only that the management terminal is replaced with a peripheral device. The peripheral device is a device that performs various processes in cooperation with the injection molding machine. Peripheral devices include a mold temperature controller, a take-out machine, a monitoring camera, and a molded product weight measuring device. The setting of network communication parameters used in the network application on the injection molding machine that realizes communication between the injection molding machine and peripheral devices has the same effect as in the first embodiment.

M Number of injection molding machines in Group 1 N Number of injection molding machines in Group 2 U1h Number of peripheral devices used in h-th injection molding machine in Group 1 U2h Number of peripheral devices used in h-th injection molding machine in Group 2 R Injection Number of network communication parameters by molding machine P (1, i, j) Individual parameter P (2, i, j) corresponding to j-th of i-th injection molding machine in group 1 i-th injection molding in group 2 Individual parameter corresponding to the jth machine

Claims (6)

In an injection molding machine that communicates using a network,
A network communication parameter acquisition unit for acquiring network communication parameters;
A setting unit for setting the acquired network communication parameter in the injection molding machine;
I have a,
The network communication parameter includes a network communication parameter used in a network application on an injection molding machine that realizes communication between the injection molding machine and a management terminal. Machine.   In an injection molding machine that communicates using a network,
A network communication parameter acquisition unit for acquiring network communication parameters;
A setting unit for setting the acquired network communication parameter in the injection molding machine;
Have
  The network communication parameter includes a network communication parameter used in a network application on an injection molding machine that realizes communication between the injection molding machine and a peripheral device. . The injection molding machine is connected via a network to a personal computer that stores the network communication parameters,
  The injection molding machine that communicates using the network according to claim 1, wherein the network communication parameter acquisition unit acquires the network communication parameter from a personal computer via the network. The injection molding machine that communicates using the network according to claim 1 or 2, wherein the network communication parameter acquisition unit acquires the network communication parameter from a storage medium that stores the network communication parameter. The network communication parameter acquiring unit reads information including network communication parameters that can be read by an optical reading device to acquire the network communication parameters, and communicates using the network according to claim 1 or 2. Injection molding machine. Specific information unique to the molding machine is set in advance in the injection molding machine,
  The network communication parameter acquisition unit reads a network communication parameter corresponding to the specific information of the injection molding machine, and communicates using the network according to any one of claims 1 to 5. Injection molding machine.

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